• ISSN 2305-7068
  • Indexed by ESCI CABI CAS
  • DOAJ Scopus GeoRef AJ CNKI
Advanced Search
Volume 5 Issue 1
Mar.  2017
Turn off MathJax
Article Contents
Ramasamy Jayakumar, Eunhee Lee. 2017: Climate change and groundwater conditions in the Mekong Region–A review. Journal of Groundwater Science and Engineering, 5(1): 14-30.
Citation: Ramasamy Jayakumar, Eunhee Lee. 2017: Climate change and groundwater conditions in the Mekong Region–A review. Journal of Groundwater Science and Engineering, 5(1): 14-30.

Climate change and groundwater conditions in the Mekong Region–A review

  • Publish Date: 2017-03-28
  • Changes in the climatic system introduce uncertainties in the supply and management of water resources. The Intergovernmental Panel on Climate Change (IPCC) predicts an increase of 2 to 4 °C over the next 100 years. Temperature increases will impact the hydrologic cycle by directly increasing the evaporation of surface water sources. Consequently, changes in precipitation will indirectly impact the flux and storage of water in surface and subsurface reservoirs (i.e., lakes, soil moisture, groundwater, etc.). In addition, increases in temperature contribute to increases in the sea level, which may lead to sea water intrusions, water quality deterioration, potable water shortages, etc. Climate change has direct impacts on the surface water and the control of storage in rivers, lakes and reservoirs, which indirectly controls the groundwater recharge process. The main and direct impact of climate change on groundwater is changes in the volume and distribution of groundwater recharge. The impact of climate change on groundwater resources requires reliable forecasting of changes in the major climatic variables and accurate estimations of groundwater recharge. A number of Global Climate Models (GCMs) are available for understanding climate and projecting climate change. These GCMs can be downscaled to a basin scale, and when they are coupled with relevant hydrological models, the output of these coupled models can be used to quantify the groundwater recharge, which will facilitate the adoption of appropriate adaptation strategies under the impact of climate change.
  • 加载中
  • UNDP. Cambodia and Ministry of Environment Cambodia. 2011. Climate Change and Water Resources, Cambodia Human Development Report 2011 .
    Van Roosmalen L, Christensen B S B, Sonnenborg T O. 2007. Regional differences in climate change impacts on groundwater and stream discharge in Denmark. Vadose Zone Journal, 6(3): 554-571 .
    Peng P, Pin N. 2000. Groundwater contamination in Cambodia. Hanoi: ESCAP-IWMI Seminar on Environmental and Public Health Risks Due to Contamination of Soils, Crops, Surface and Groundwater from Urban, Industrial and Natural Sources in South East Asia .
    Falkenmark M, Lannerstad M. 2004. Consumptive water use to feed humanity? Curing a blind spot. Hydrology and Earth System Sciences, 1(1): 7-40 .
    USAID. 2011. Climate change in Vietnam: Assessment of issues and options for USAID funding. USAID/Vietnam: US Forest Service .
    IPCC. 2007. Summary for policymakers. In Climate Change 2007: The physical science basis. Contribution of working group I to the fourth assessment report of the intergovern-mental panel on climate change. Cambridge, UK and New York: Cambridge University Press .
    WEPA. Policies: State of water environmental issues: Myanmar. Available at: http://www. wepa-db.net/policies/state/myanmar/seaareas.htm .
    Pattanee S, Phuriphanphinyo N, Cheevaprasert S. 2002. Thailand’s strategic planning and management of water resources and Mekong basin perspectives. Phnom Penh: Cambodia, Presentation to MRC .
    Vrba J, Verhagen B. 2011. Groundwater for emergency situations: A methodological guide. Paris: International Hydrological Programme, UNESCO .
    Clifton C, Evans R, et al. 2010. Water and climate change: Impacts on groundwater resources and adaptation options. Water Working Notes, (1): 1-76 .
    Babklin V I, Klige R K. 2004. The contemporary hydrosphere. In: World water resources at the beginning of the 21st century. International hydrology series. Cambridge: UNESCO, Cambridge University Press, 13-18 .
    UNESCO-IHP. 2008. Groundwater resources assessment under the pressure of humanity and climate changes. Paris: United Nations Educational, Scientific and Cultural Organization (UNESCO) .
    Wada Y, Van Beek L P H, et al. 2010. Global depletion of groundwater resources. Geophysical Research Letters, 37(20) .
    Kumar C P. 2012. Climate change and its impact on groundwater resources. International Journal of Engineering and Science, 1(5): 43-60 .
    D?ll P, Fiedler K. 2007. Global-scale modeling of groundwater recharge. Hydrology and Earth System Sciences Discussions, 4(6): 4069- 4124 .
    Sengchandala S. 2010. Climate change policy of Lao PDR. Presentation to the 8th Workshop on GHG Inventories in Asia. Available from: http://www-gio.nies.go.jp/wgia/wg8/pdf/0-3_syamphone_segchandala.pdf .
    Dragoni W, Sukhija B S. 2008. Climate change and groundwater: A short review. Geological Society, London, Special Publications, 288(1): 1-12 .
    Pattanee S, Phuriphanphinyo N, Cheevaprasert S. 2002. Thailand’s strategic planning and management of water resources and Mekong basin perspectives. Phnom Penh: Cambodia, Presentation to MRC .
    Eastham J, Mpelasoka F, et al. 2008. Mekong river basin water resources assessment: Impacts of climate change. CSIRO water for a Healthy Country National Research Flagship report .
    MRC, UNEP, 1997. Mekong River Basin diagnostic study: Final report. Bangkok: Mekong River Commission (MRC), Thailand and United Nations Environment Programme (UNEP) .
    Williamson D R, Peck A J, Turner J V. Groundwater hydrology and salinity in a valley in Northeast Thailand. In Groundwater Contamination: Proceedings of the Symposium held during the Third IAHS Scientific Assembly, Baltimore, MD. IAHS publication No. 185: 147-154 .
    Immerzeel W W, Van Beek L P H, et al. 2012. Hydrological response to climate change in a glacierized catchment in the Himalayas. Climatic Change, 110(3-4): 721-736 .
    Kundzewicz Z W, Doell P. 2009. Will groundwater ease freshwater stress under climate change? Hydrological Sciences Journal, 54(4): 665- 675 .
    V?r?smarty C, Lettenmaier D, et al. 2004. Humans transforming the global water system. Eos, Transactions American Geophysical Union, 85(48): 509-514 .
    MRC. 2005. Water used for agriculture in the Lower Mekong Basin. MRC discussion paper, 61 .
    World Bank. 2011. Vulnerability, risk reduction, and adaptation to climate change: Lao PDR. Washington, DC: Global Facility for Disaster Reduction and Recovery, Climate Investment Funds, and World Bank Climate Change Team .
    Rasmussen W C, Bradford G M. 1977. Ground-water resources of Cambodia. Geological Survey Water-Supply Paper, USGS .
    Holman I P. 2006. Climate change impacts on groundwater recharge-uncertainty, short-comings, and the way forward? Hydrogeology Journal, 14(5): 637-647 .
    Taylor R G, Scanlon B, et al. 2013. Ground water and climate change. Nature Climate Change, 3(4): 322-329 .
    D?ll P, Florke M. 2005. Global-scale estimation of diffuse groundwater recharge: model tuning to local data for semi-arid and arid regions and assessment of climate change impact. Frankurt Hydrology Paper. Frankfurt: Institute of Physical Geography, Frankfurt University .
    Vrba J, Verhagen B. 2011. Groundwater for emergency situations: A methodological guide. Paris: International Hydrological Programme, UNESCO .
    Hiscock K M. 2005. Hydrogeology: Principles and practice. Blackwell: Oxford .
    Hatton T, Evans R. 1998. Dependence of ecosystems on groundwater and its significance to Australia. Occasional Paper No. 12/98. Clayton: Land and Water Resources Research and Development Corporation, CSIRO .
    Wada Y, Van Beek L P H, et al. 2010. Global depletion of groundwater resources. Geophysical Research Letters, 37(20) .
    D?ll P. 2009. Vulnerability to the impact of climate change on renewable groundwater resources: A global-scale assessment. Environmental Research Letters, 4(3): 1-12 .
    EcoLao. 2012. Scoping assessment of climate change adaptation priorities in the Lao PDR. Regional Climate Change Adaptation Knowledge Platform for Asia, Partner Report Series No. 6. Bangkok: Stockholm Environ-ment Institute .
    Ghassemi F, Brennan D. 2000. An evaluation of the sustainability of farming systems in the brackish water region of the Mekong Delta. Resource profile subproject: summary report. Bruce: Australian Centre for International Agricultural Research .
    Cruz R V, Harasawa H. 2007. Asia climate change 2007: Impacts, adaptation and vulnerability. contribution of Working Group II to the fourth assessment report of the intergovernmental panel on climate change. Cambridge: Cambridge University Press, 469-506 .
    V?r?smarty C, Lettenmaier D, et al. 2004. Humans transforming the global water system. Eos, Transactions American Geophysical Union, 85(48): 509-514 .
    Sengchandala S. 2010. Climate change policy of Lao PDR. Presentation to the 8th Workshop on GHG Inventories in Asia. Available from: http://www-gio.nies.go.jp/wgia/wg8/pdf/0-3_syamphone_segchandala.pdf .
    WEPA. Policies: State of water environmental issues: Viet Nam. Available at: http://www. wepa-db.net/policies/state/vietnam/seaareas.htm .
    Margat J. 2008. Les eaux souterraines dans le monde. Orléans/Paris: BGRM/UNESCO .
    Taylor R G, Scanlon B, et al. 2013. Ground water and climate change. Nature Climate Change, 3(4): 322-329 .
    UNDP. Cambodia and Ministry of Environment Cambodia. 2011. Climate Change and Water Resources, Cambodia Human Development Report 2011 .
    IPCC. 2011. Managing the risks of extreme events and disasters to advance climate change adaptation. Available at: http://ipcc-wg2.gov/ SREX .
    Bouwer L M, Aerts J, et al. 2006. Detecting the long-term impacts from climate variability and increasing water consumption on runoff in the Krishna river basin (India). Hydrology and Earth System Sciences Discussions, 3(4): 1249-1280 .
    IPCC. 2014. Summary for policymakers. In: Climate Change 2014: Impacts, adaptation, and vulnerability Part A: Global and sectoral aspects. Contribution of Working Group II to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change Field. Cambridge, UK and New York: Cambridge University Press .
    Merz S K. 2001. Environmental water require-ments of groundwater dependent ecosystems. Canberra: Environment Australia .
    Hoanh C T, Guttman H, et al. 2003. Water, climate, food, and environment in the Mekong Basin in Southeast Asia. Final Report ADAPT Project. Amsterdam: International Water Management Institute (IWMI), Mekong River Commission Secretariat (MRCS), Institute of Environmental Studies (IVM) .
    Williamson D R, Peck A J, Turner J V. Groundwater hydrology and salinity in a valley in Northeast Thailand. In Groundwater Contamination: Proceedings of the Symposium held during the Third IAHS Scientific Assembly, Baltimore, MD. IAHS publication No. 185: 147-154 .
    Williamson D R, Peck A J, et al. 1989. Groundwater hydrology and salinity in a valley in Northeast Thailand. In Groundwater Contamination: Proceedings of the Symposium Held during the Third IAHS Scientific Assembly. Baltimore: IAHS Publication, 147-154 .
    Shiklomanov I A. 2004. General conclusions: the outcome of the monograph. World water resources at the beginning of the 21st century. International hydrology series–UNESCO. Cambridge: Cambridge University Press, 414-416 .
    Bates B, Kundzewicz Z W, et al. 2008. Climate change and water. Technical Paper of the Intergovernmental Panel on Climate Change. Geneva: IPCC Secretariat, 210 .
    USAID. 2011. Climate change in Vietnam: Assessment of issues and options for USAID funding. USAID/Vietnam: US Forest Service .
    Peng P, Pin N. 2000. Groundwater contamination in Cambodia. Hanoi: ESCAP-IWMI Seminar on Environmental and Public Health Risks Due to Contamination of Soils, Crops, Surface and Groundwater from Urban, Industrial and Natural Sources in South East Asia .
    Rasmussen W C, Bradford G M. 1977. Ground-water resources of Cambodia. Geological Survey Water-Supply Paper, USGS .
    WEPA. Policies: State of water environmental issues: Viet Nam. Available at: http://www. wepa-db.net/policies/state/vietnam/seaareas.htm .
    Van Roosmalen L, Christensen B S B, Sonnenborg T O. 2007. Regional differences in climate change impacts on groundwater and stream discharge in Denmark. Vadose Zone Journal, 6(3): 554-571 .
    MOWRAM. 2008. Master Plan of water resources development in Cambodia. Report of Republic of Korea: Korea International Cooperation Agency .
    Mutiibwa R K. 2008. Land use impacts on gravity-fed water supply systems in south-western Uganda. Groundwater and Climate in Africa. Kampala: International Conference .
    Boehmer W. 2000. Groundwater study Mekong Delta. Modelling report. HASKONING B V, Consulting Engineers and Architects, in association with Division of Hydro-Geology and Engineering Geology for the South of Vietnam and ARCADIS Euroconsult, 136 .
    Kalugendo P P. 2008. Impacts of climate variability on ground water in Dar es Salaam, Tanzania. Kampala: Proceedings of the International Conference Groundwater and Climate in Africa, 52 .
    Shiklomanov I A. 2004. General conclusions: the outcome of the monograph. World water resources at the beginning of the 21st century. International hydrology series–UNESCO. Cambridge: Cambridge University Press, 414-416 .
    Sinath C. 2001. Investment in land and water in Cambodia. Phnom Penh: Irrigated Agriculture Department, Ministry of Water Resources and Meteorology .
    Oldfield F. 2005. Environmental change: Key issues and alternative perspectives. New York: Cambridge University Press .
    Department of Meteorology and Hydrology. 2012. Myanmar’s National Adaptation Programme of Action (NAPA) to climate change 2012. Ministry of Transport (Executing Agency) and UNEP .
    Sinath C. 2001. Investment in land and water in Cambodia. Phnom Penh: Irrigated Agriculture Department, Ministry of Water Resources and Meteorology .
    Jones J A A. 1997. Global Hydrology: Processes, resources and environmental management. London: Longman .
    UNESCO-IHP. 2008. Groundwater resources assessment under the pressure of humanity and climate changes. Paris: United Nations Educational, Scientific and Cultural Organization (UNESCO) .
    Delleur J W. 2006. The handbook of groundwater engineering. Boca Raton: CRC Press, 1320.
    Kazama S, Hagiwara T, et al. 2007. Evaluation of groundwater resources in wide inundation areas of the Mekong River basin. Journal of Hydrology, 340(3): 233-243 .
    Hussain I, Hanjra M A. 2004. Irrigation and poverty alleviation: review of the empirical evidence. Irrigation and Drainage, 53(1): 1-15 .
    WEPA. Policies: State of water environmental issues: Myanmar. Available at: http://www. wepa-db.net/policies/state/myanmar/seaareas.htm .
    World Bank. 2011. Vulnerability, risk reduction, and adaptation to climate change: Lao PDR. Washington, DC: Global Facility for Disaster Reduction and Recovery, Climate Investment Funds, and World Bank Climate Change Team .
    Williamson D R, Peck A J, et al. 1989. Groundwater hydrology and salinity in a valley in Northeast Thailand. In Groundwater Contamination: Proceedings of the Symposium Held during the Third IAHS Scientific Assembly. Baltimore: IAHS Publication, 147-154 .
  • Relative Articles

    [1] Ming-nan Yang, Liang Zhu, Jing-tao Liu, Yu-xi Zhang, Bing Zhou, 2023: Influence of water conservancy project on runoff in the source region of the Yellow River and wetland changes in the Lakeside Zone, China, Journal of Groundwater Science and Engineering, 11, 333-346.  doi: 10.26599/JGSE.2023.9280027
    [2] Vinay Kumar Gautam, Mahesh Kothari, P.K. Singh, S.R. Bhakar, K.K. Yadav, 2022: Analysis of groundwater level trend in Jakham River Basin of Southern Rajasthan, Journal of Groundwater Science and Engineering, 10, 1-9.  doi: 10.19637/j.cnki.2305-7068.2022.01.001
    [3] Liang Zhu, Ming-nan Yang, Jing-tao Liu, Yu-xi Zhang, Xi Chen, Bing Zhou, 2022: Evolution of the freeze-thaw cycles in the source region of the Yellow River under the influence of climate change and its hydrological effects, Journal of Groundwater Science and Engineering, 10, 322-334.  doi: 10.19637/j.cnki.2305-7068.2022.04.002
    [4] KHELFAOUI Hakim, DAJBRI Larbi, LAKHAL Fatima Zohra, CHAFFAI Hicham, HANI Azzedine, SAYAD Lamine, 2020: Determination of the origin of mineralization and groundwater salinity in the Adrar region in the southwest of Algeria, Journal of Groundwater Science and Engineering, 8, 158-171.  doi: 10.19637/j.cnki.2305-7068.2020.02.007
    [5] SADIKI Moulay Lhassan, EL MANSOURI Bouabid, BENSEDDIK Badr, CHAO Jamal, KILI Malika, EL MEZOUARY Lhoussaine, 2019: Improvement of groundwater resources potential by artificial recharge technique: A case study of Charf El Akab aquifer in the Tangier region, Morocco, Journal of Groundwater Science and Engineering, 7, 224-236.  doi: DOI: 10.19637/j.cnki.2305-7068.2019.03.003
    [6] ZHOU Xun, 2017: Arsenic distribution and source in groundwater of Yangtze River Delta economic region, China, Journal of Groundwater Science and Engineering, 5, 343-353.
    [7] Pezhman ROUDGARMI, Ebrahim FARAHANI, 2017: Investigation of groundwater quantitative change, Tehran Province, Iran, Journal of Groundwater Science and Engineering, 5, 278-285.
    [8] Eunhee Lee, Kyoochul Ha, Nguyen Thi Minh Ngoc, Adichat Surinkum, Ramasamy Jayakumar, Yongje Kim, Kamaludin Bin Hassan, 2017: Groundwater status and associated issues in the Mekong-Lancang River Basin: International collaborations to achieve sustainable groundwater resources, Journal of Groundwater Science and Engineering, 5, 1-13.
    [9] SHANG Man-ting, LIU Pei-gui, LEI Chao, LIU Ming-chao, WU Liang, 2017: Effect of climate change on the trends of evaporation of phreatic water from bare soil in Huaibei Plain, China, Journal of Groundwater Science and Engineering, 5, 213-221.
    [10] SRISUK Kriengsak, NETTASANA Tussanee, 2017: Climate change and groundwater resources in Thailand, Journal of Groundwater Science and Engineering, 5, 67-75.
    [11] Than Zaw, Maung Maung Than, 2017: Climate change and groundwater resources in Myanmar, Journal of Groundwater Science and Engineering, 5, 59-66.
    [12] Khongsab Somphone, OunakoneKone Xayviliya, 2017: Climate change and groundwater resources in Lao PDR, Journal of Groundwater Science and Engineering, 5, 53-58.
    [13] BAI Bing, CHENG Yan-pei, JIANG Zhong-cheng, ZHANG Cheng, 2017: Climate change and groundwater resources in China, Journal of Groundwater Science and Engineering, 5, 44-52.
    [14] Chamroeun SOK, Sokuntheara CHOUP, 2017: Climate change and groundwater resources in Cambodia, Journal of Groundwater Science and Engineering, 5, 31-43.
    [15] Duong D Bui, Nghia C Nguyen, Nuong T Bui, Anh T T Le, Dao T Le, 2017: Climate change and groundwater resources in Mekong Delta, Vietnam, Journal of Groundwater Science and Engineering, 5, 76-90.
    [16] ZHANG Chun-chao, WANG Wen-Ke, SUN Yi-bo, LI Xiang-quan,HOU Xin-wei, 2015: Processes of hydrogeochemical evolution of groundwater in the Guanzhong Basin, China, Journal of Groundwater Science and Engineering, 3, 136-146.
    [17] Yun GAO, 2014: Coastal Case Study-Clarence City Council, Journal of Groundwater Science and Engineering, 2, 21-28.
    [18] CHEN Qu, 2014: Anticipatory Adaptation Approaches to Climate Change--A Review and Discussion of Southern Australia’s Sustainable Water Management and Its Strategies and Shortcomings, Journal of Groundwater Science and Engineering, 2, 54-61.
    [19] Jiansheng Shi, Hongtao Liu, Zhiyuan Liu, Tieliu Chen, 2013: Application of the “Accurate Control Groundwater Resources” Theory in Containment of Groundwater Resource Exhaustion Trend, Journal of Groundwater Science and Engineering, 1, 1-10.
    [20] Jin-cui Wang, Liang Zhu, Ying Zhang, Ji-chao Sun, 2013: Study on the Climatic Change Features of Hebei Plain, Journal of Groundwater Science and Engineering, 1, 68-74.
  • 加载中

Catalog

    Article Metrics

    Article views (722) PDF downloads(1087) Cited by()
    Proportional views
    Related

    Welcome to Journal of Groundwater Science and  Engineering!

    Quick Submit

    Online Submission   E-mail Submission

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return